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| Autori principali: | , , , , , , , |
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| Natura: | Preprint |
| Pubblicazione: |
2025
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| Soggetti: | |
| Accesso online: | https://arxiv.org/abs/2509.09336 |
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| _version_ | 1866914032546480128 |
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| author | Silva, Daniela Menezes, Raquel Araújo, Gonçalo Machado, Ana Rosa, Renato Moreno, Ana Silva, Alexandra Garrido, Susana |
| author_facet | Silva, Daniela Menezes, Raquel Araújo, Gonçalo Machado, Ana Rosa, Renato Moreno, Ana Silva, Alexandra Garrido, Susana |
| contents | Sustainable management of marine ecosystems is vital for maintaining healthy fishery resources, and benefits from advanced scientific tools to accurately assess species distribution patterns. In fisheries science, two primary data sources are used: fishery-independent data (FID), collected through systematic surveys, and fishery-dependent data (FDD), obtained from commercial fishing activities. While these sources provide complementary information, their distinct sampling schemes - systematic for FID and preferential for FDD - pose significant integration challenges. This study introduces a novel spatio-temporal model that integrates FID and FDD, addressing challenges associated with zero-inflation and preferential sampling (PS) common in ecological data. The model employs a six-layer structure to differentiate between presence-absence and biomass observations, offering a robust framework for ecological studies affected by PS biases. Simulation results demonstrate the model's accuracy in parameter estimation across diverse PS scenarios and its ability to detect preferential signals. Application to the study of the distribution patterns of the European sardine populations along the southern Portuguese continental shelf illustrates the model's effectiveness in integrating diverse data sources and incorporating environmental and vessel-specific covariates. The model reveals spatio-temporal variability in sardine presence and biomass, providing actionable insights for fisheries management. Beyond ecology, this framework offers broad applicability to data integration challenges in other disciplines. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2509_09336 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | A Zero-Inflated Spatio-Temporal Model for Integrating Fishery-Dependent and Independent Data under Preferential Sampling Silva, Daniela Menezes, Raquel Araújo, Gonçalo Machado, Ana Rosa, Renato Moreno, Ana Silva, Alexandra Garrido, Susana Applications Methodology Sustainable management of marine ecosystems is vital for maintaining healthy fishery resources, and benefits from advanced scientific tools to accurately assess species distribution patterns. In fisheries science, two primary data sources are used: fishery-independent data (FID), collected through systematic surveys, and fishery-dependent data (FDD), obtained from commercial fishing activities. While these sources provide complementary information, their distinct sampling schemes - systematic for FID and preferential for FDD - pose significant integration challenges. This study introduces a novel spatio-temporal model that integrates FID and FDD, addressing challenges associated with zero-inflation and preferential sampling (PS) common in ecological data. The model employs a six-layer structure to differentiate between presence-absence and biomass observations, offering a robust framework for ecological studies affected by PS biases. Simulation results demonstrate the model's accuracy in parameter estimation across diverse PS scenarios and its ability to detect preferential signals. Application to the study of the distribution patterns of the European sardine populations along the southern Portuguese continental shelf illustrates the model's effectiveness in integrating diverse data sources and incorporating environmental and vessel-specific covariates. The model reveals spatio-temporal variability in sardine presence and biomass, providing actionable insights for fisheries management. Beyond ecology, this framework offers broad applicability to data integration challenges in other disciplines. |
| title | A Zero-Inflated Spatio-Temporal Model for Integrating Fishery-Dependent and Independent Data under Preferential Sampling |
| topic | Applications Methodology |
| url | https://arxiv.org/abs/2509.09336 |